A human phantom apparatus is provided with a body section, a head section connected with the body section, at least one shoulder section connected with the body section, and an arm section including a hand section, the arm section connected with the shoulder section. Each of the body section, the head section, the at least one shoulder section, and the arm section is filled with a human body equivalent material. The human phantom apparatus has a so-called PDA (Portable Digital Assistance) attitude of holding a radio communication apparatus by the hand section of the arm section, so that the human phantom apparatus looks at a display unit of the radio communication apparatus in front of the body section.
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1. An antenna characteristic measurement apparatus for measuring a characteristic of an antenna of a radio communication apparatus using a human phantom apparatus,
wherein said human phantom apparatus comprises:
a body section;
a head section connected with said body section;
at least one shoulder section connected with said body section; and
an arm section including a hand section, said arm section connected with said shoulder section,
wherein each of the body section, the head section, the at least one shoulder section, and the arm section is filled with a human body equivalent material,
wherein the human phantom apparatus has an attitude of holding a radio communication apparatus by the hand section of said arm section, so that the human phantom apparatus looks at a display unit of the radio communication apparatus in front of said body section,
wherein said antenna characteristic measurement apparatus comprises a control device for measuring the characteristic of the antenna of the radio communication apparatus, by changing at least one parameter selected from (a) an interval between said body section and the radio communication apparatus, (b) an inclined angle of the radio communication apparatus with respect to a horizontal direction, and (c) a height of the radio communication apparatus,
wherein said human phantom apparatus comprises a finger phantom apparatus, and
wherein said finger phantom apparatus comprises:
a hollow fingertip section made of an elastic material; and
a hollow finger root section made of a dielectric material,
wherein said fingertip section and said finger root section are filled with a human body equivalent material, and are sealed.
2. The antenna characteristic measurement apparatus as claimed in
wherein the characteristic of the antenna of said radio communication apparatus is measured in such a state that said fingertip section is brought into contact with an input device of said radio communication apparatus.
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1. Field of the Invention
The present invention relates to a human phantom apparatus, a finger phantom apparatus, an apparatus for measuring a characteristic of an antenna using the phantom apparatus, an antenna apparatus, and a radio communication apparatus with the antenna apparatus. In particular, the present invention relates to a human phantom apparatus and a finger phantom apparatus which are used upon measuring a characteristic of an antenna apparatus, an apparatus for measuring a characteristic of an antenna apparatus using the same phantom apparatus, an antenna apparatus constituted based on measurement results of the apparatus for measuring the characteristic of the antenna apparatus, and a radio communication apparatus using the antenna apparatus.
2. Description of the Related Art
In recent years, mobile communication systems, each using a radio communication apparatus such as a mobile phone or the like have been rapidly developed. Generally, the mobile phone is used in the vicinity of a human body, and therefore, it is important to highly accurately measure characteristics of an antenna of the mobile phone, in such a state that the mobile phone is attached to the human body. A conventional measurement of the characteristics of the antenna of the mobile phone has the following disadvantages. Since it has been difficult for a human subject to maintain his or her attitude, reproducibility is deteriorated. Due to great differences among human subjects, it is difficult to relatively compare measurement results with each other. For these reasons, the characteristics of the antenna of the mobile phone have been conventionally measured using a human phantom apparatus as disclosed in, for example, a first patent document of Japanese patent laid-open publication No. JP-P2000-082333-A, and a second patent document of Japanese patent laid-open publication No. JP-P2002-107396-A.
According to the first patent document, for example, in order to provide a composite dielectric capable of mass-producing solid biological phantoms in short time at a lower manufacturing cost, and having uniformly stable electric characteristics, the composite dielectric used for a solid biological phantom is characterized by containing thermosetting resin of 40 to 90 volume % and electrically conductive powder of 10 to 60 volume % (100 volume % in all).
According to the second patent document, for example, in order to measure the change in the characteristics due to a positional relationship between the antenna attached with the mobile phone and the human body or an ear, in particular, with higher accuracy, there is provided a human phantom apparatus that is constructed by a head section including ear sections, a body section, an arm section, a left hand section, and a moving means, and the human phantom is characterized by allowing the arm section to move by the moving means. The second patent document particularly provides the human phantom apparatus having an attitude for holding the mobile phone on the ear of the human phantom apparatus.
The mobile phone is used as a conventional telephone, and further, the mobile phone is also used as a data terminal for transmitting and receiving E-mails and viewing web pages using WWW (Word Wide Web). The frequency increases of using the mobile phone in a user's attitude of holding the mobile phone by his hand in front of his chest. This attitude is referred to as a PDA (Personal Digital Assistance) attitude hereinafter. In order to establish a higher quality of telephone speech communication quality of the mobile phone even in these circumstances, it is necessary to measure the characteristics of the antenna of the mobile phone with higher accuracy in accordance with the positional relationship between the antenna and the human body.
As disclosed by the second patent document, the conventional human phantom apparatus simulates an attitude in telephone speech communication of holding the mobile phone near the ear on the side of the head section, and is unable to measure the characteristics of the antenna in a PDA attitude. In the PDA attitude, the distance between the antenna of the mobile phone and the human body is larger than that that in the conventional attitude of the telephone speech communication. For this reason, it is disadvantageously difficult to highly accurately measure the characteristics of the antenna using the human phantom apparatus different from an actual human body in shapes of sections such as a shoulder, a chest, and an arm, in such a state that a radio wave radiated from a portable radio communication apparatus held in the PDA attitude is reflected and absorbed by the human phantom apparatus.
In addition, since the human phantom apparatus includes a solid material such as composite dielectric or the like, it is disadvantageously difficult to highly accurately simulate a state of the adhesion between fingers and the mobile phone, in such a state that the human phantom apparatus holds the mobile phone. The electric characteristics of the human body change according to the radio frequency being used. In order to deal with this change, it is necessary to manufacture the human phantom apparatus by re-adjusting the composition ratio of the solid materials according to the radio frequency band. As a result, the manufacturing cost disadvantageously increases.
Further, there has been desired a radio communication apparatus that includes at least two antennas, that performs diversity reception, and that can receive radio signals satisfactorily at levels larger than those of the prior art.
It is an object of the present invention to provide a human phantom apparatus, a finger phantom apparatus, and an antenna characteristic measurement apparatus using the human phantom apparatus and the finger phantom apparatus capable of solving the above-mentioned conventional disadvantages, holding a radio communication apparatus such as a mobile phone or the like in a PDA attitude, and measuring a characteristic of an antenna of the radio communication apparatus with accuracy higher than that of the prior art.
It is another object of the present invention to provide an antenna apparatus capable of solving the conventional disadvantages, and receiving a radio signal satisfactorily based on measurement results of the antenna characteristic measurement apparatus for use in a radio communication apparatus that includes at least two antennas and performs diversity reception, and a radio communication apparatus using the antenna apparatus.
According to one aspect of the present invention, there is provided a human phantom apparatus with a body section, a head section connected with the body section, at least one shoulder section connected with the body section, and an arm section including a hand section. The arm section is connected with the shoulder section. Each of the body section, the head section, the at least one shoulder section, and the arm section is filled with a human body equivalent material. The human phantom apparatus has an attitude of holding a radio communication apparatus by the hand section of the arm section, so that the human phantom apparatus looks at a display unit of the radio communication apparatus in front of the body section.
In the above-mentioned human phantom apparatus, the head section is preferably arranged to be inclined from a vertical direction of the human phantom apparatus.
The above-mentioned human phantom apparatus preferably further includes a first rotational connecting device which rotatably connects the head section on the body section at a depression angle direction of the human phantom apparatus.
The above-mentioned human phantom apparatus preferably further includes a second rotational connecting device which rotatably connects the hand section around the arm section at the depression angle direction of the human phantom apparatus so as to change an inclined angle of the radio communication apparatus with respect to a horizontal direction.
The above-mentioned human phantom apparatus preferably further includes a first slidable connecting device which slidably connects the shoulder section with the arm section so as to change an interval between the body section and the hand section.
The above-mentioned human phantom apparatus preferably further includes a second slidable connecting device which slidably connects the shoulder section with the body section substantially in a vertical direction of the human phantom apparatus.
In the above-mentioned human phantom apparatus, the human phantom apparatus is preferably employed to measure a characteristic of an antenna of the radio communication apparatus.
According to another aspect of the present invention, there is provided a finger phantom apparatus which includes a hollow fingertip section made of an elastic material, and a hollow finger root section made of a dielectric material. The fingertip section and the finger root section are filled with a human body equivalent material, and are sealed.
According to a further aspect of the present invention, there is provided a finger phantom apparatus which includes a hollow fingertip section made of an elastic material, and a finger root section made of a solid phantom. The finger section is filled with a human body equivalent material.
In the above-mentioned finger phantom apparatus, the finger phantom apparatus is preferably employed to measure a characteristic of an antenna of a radio communication apparatus.
According to a still further aspect of the present invention, there is provided an antenna characteristic measurement apparatus which measures a characteristic of an antenna of the radio communication apparatus using the human phantom apparatus. The antenna characteristic measurement apparatus includes a control device. The control device measures the characteristic of the antenna of the radio communication apparatus, by changing at least one parameter selected from (a) an interval between the body section and the radio communication apparatus, (b) an inclined angle of the radio communication apparatus with respect to a horizontal direction, and (c) a height of the radio communication apparatus.
In the above-mentioned antenna characteristic measurement apparatus, the human phantom apparatus preferably includes the finger phantom apparatus.
In the above-mentioned antenna characteristic measurement apparatus, the characteristic of the antenna of the radio communication apparatus are preferably measured in such a state that the fingertip section is brought into contact with an input device of the radio communication apparatus.
According to a still further aspect of the present invention, there is provided an antenna apparatus for use in a radio communication apparatus. The antenna apparatus includes at least two antennas. The two antennas are arranged in the radio communication apparatus, so that an absolute value d0 of a horizontal interval between the two antennas satisfies the following Equation:
d0=λ/4+(nλ)/2,
where λ is a wavelength of a radio wave to be used, and n is an integer equal to or larger than zero.
According to a still further aspect of the present invention, there is provided an antenna apparatus for use in a radio communication apparatus. The antenna apparatus includes at least two antennas. The two antennas are arranged in the radio communication apparatus, so that an absolute value d0 of a horizontal interval between the two antennas, in such a state that the radio communication apparatus is inclined at a predetermined inclined angle with respect to a horizontal direction, satisfies the following Equation:
d0=λ/4+(nλ)/2,
where λ is a wavelength of a radio wave to be used, and n is an integer equal to or larger than zero.
According to a further aspect of the present invention, there is provided a radio communication apparatus which includes the above-mentioned antenna apparatus.
According to a still further aspect of the present invention, there is provided an antenna apparatus for use in a radio communication apparatus. The antenna apparatus includes at least two antennas including a first antenna and a second antenna. The first and second antennas are arranged in the radio communication apparatus, so that an absolute value d0 of a difference between (a) a horizontal interval between the body section of the human phantom apparatus and the first antenna and (b) a horizontal interval between the body section of the human phantom apparatus and the second antenna, in such a state that the radio communication apparatus is held by the hand section of the human phantom apparatus satisfies the following Equation:
d0=λ/4+(nλ)/2,
where λ is a wavelength of a radio wave to be used, and n is an integer equal to or larger than zero.
According to a still further aspect of the present invention, there is provided an antenna apparatus for use in a radio communication apparatus. The antenna apparatus includes at least two antennas including a first antenna and a second antenna. The first and second antennas are arranged in the radio communication apparatus, so that an absolute value d0 of a difference between (a) a horizontal interval between the body section of the human phantom apparatus and the first antenna and (b) a horizontal interval between the body section of the human phantom apparatus and the second antenna, in such a state that the radio communication apparatus is held so as to be inclined at a predetermined inclined angle with respect to a horizontal direction by the hand section of the human phantom apparatus satisfies the following Equation:
d0=λ/4+(nλ)/2,
where λ is a wavelength of a radio wave to be used, and n is an integer equal to or larger than zero.
According to a still further aspect of the present invention, there is provided a radio communication apparatus which includes the above-mentioned antenna apparatus.
Accordingly, it is possible to faithfully simulate such a state that the radio communication apparatus is held in a PDA attitude, and to measure the characteristics of the antenna with accuracy higher than that of the prior art by measuring an antenna of the radio communication apparatus using the human phantom apparatus.
Further, by designing dimensions of inner walls of respective sections of the human phantom apparatus based on standard dimensions of an adult male according to predetermined statistic data, it is possible to measure the characteristics of the antenna of the radio communication apparatus having larger universality.
The human phantom apparatus is provided as a liquid phantom having a physiological saline solution, water, or an SAR solution filled into a dielectric container made of resin or the like. In this case, even if antenna measurement should be done for various radio frequencies, the characteristics of the antenna of the radio communication apparatus 111 can be measured only by filling a physiological saline solution, water, or an SAR solution according to electric properties of a human body for the respective radio frequencies. In addition, it is possible to greatly reduce a manufacturing cost as compared with that of a solid phantom made of a solid material.
By making a position and an angle at which the radio communication apparatus is held adjustable by the sliding mechanism, it is possible to measure radiation characteristics of the antenna using the interval between the radio communication apparatus and the human phantom apparatus and the inclined angle of the radio communication apparatus as parameters. In addition, the attitude of the display unit of the radio communication apparatus can be adjusted to always face or oppose the head section of the human phantom apparatus, so that the human phantom apparatus looks at the display unit. Therefore, it is possible to measure the characteristics of the antenna of the radio communication apparatus with accuracy higher than that of the prior art.
Further, when a plurality of antennas are arranged in the radio communication apparatus, they are arranged so that an absolute value of the difference between intervals “d1” and “d2” between the antennas and the body section of the human phantom apparatus, respectively, is λ/4 or a value obtained by adding a multiple of a natural number of λ/2 to λ/4, in such a state that the radio communication apparatus is held so as to be inclined at a predetermined inclined angle, and further, the antenna having a higher reception level in a propagation environment within a line of sight is selected as a transmission antenna. Then it is possible to improve a space diversity effect and to suppress deterioration of antenna sensitivity in the PDA attitude.
Moreover, by employing the finger phantom apparatus having a container a tip end portion of which is made of an elastic material such as rubber, it is possible to highly accurately simulate such a state that a finger contacts with the antenna or the radio communication apparatus, and to measure the characteristics of the antenna with accuracy higher than that of the prior art.
These and other objects and features of the present invention will become clear from the following description taken in conjunction with the preferred embodiments thereof with reference to the accompanying drawings throughout which like parts are designated by like reference numerals, and in which:
Preferred embodiments according to the present invention will be described below with reference to the attached drawings. The same reference numerals are used for components similar to each other.
As shown in
Referring to
The surfaces of the head section 102, the body section 103, the right shoulder section 104, the right arm section 105, the right hand section 106, and the left shoulder section 107 are made of resin such as FRP (Fiber Reinforced Plastics) or the like so as to have a thickness of 2 to 8 mm. A solution of a medium having an electric constant close to that of a human body (e.g., a physiological saline solution or water (when the used radio frequency is relatively low)) or an SAR solution, as a human body equivalent material, is injected and filled into interiors of the head section 102, the right shoulder section 104, the right arm section 105, and the right hand section 106 through injection holes 102a, 104a, 105a, and 106a, respectively. The head section 102 is formed integrally with the body section 103 and inside hollows thereof are communicated each other, so that the solution injected from the injection hole 102a of the head section 102 is also filled into the interior of the body section 103. The SAR solution is a solution used to measure an SAR (Specific Absorption Rate) that is an electric power absorbed by a unit mass due to exposure of a living body such as a human or the like to an electromagnetic field, and is used as the human body equivalent material. At a used radio frequency f of, for example, 900 MHz, the SAR solution preferably includes sucrose of 56.6%, demineralized water of 40.92%, sodium chloride of 1.48%, hydroxyl cellulose of 1.0%, and germicide of 0.1%. In addition, at a used radio frequency f of, for example, 1900 MHz, the SAR solution preferably includes butyl Carbitol of 44.92%, demineralized water of 54.90%, and sodium chloride of 0.18%. In the present specification, symbol % indicates percentage of a volume content. The injection hole 102a of the head section 102 is formed in a vertex section of the head section 102, and this leads to prevention of mixture of the air when the solution is injected into the human phantom apparatus 101.
Referring to
Further, the right shoulder section 104 including the sliding section 104b has a sliding mechanism similar to that of
As shown in
The human phantom apparatus 101 constituted as mentioned above has the PDA attitude of holding the portable radio communication apparatus 111 by the right hand section 106 of the right arm section 105 in front of the body section 103, so that the human phantom apparatus 101 looks down at the liquid crystal display unit 111a that serves as a display unit of the portable radio communication apparatus 111, i.e., so that lines of the eyes of the human phantom apparatus 101 reach the liquid crystal display unit 111a. Therefore, the PDA attitude can be faithfully simulated, and the characteristics of the antenna of the portable radio communication apparatus 111 can be measured with accuracy higher than that of the prior art.
Furthermore, the human phantom is provided as a liquid phantom having the solution such as the physiological saline solution as filled into a dielectric container made of resin or the like. In this case, even if various radio frequencies are used, the characteristics of the antenna of the portable radio communication apparatus 111 can be similarly measured only by injecting and filling the solution according to the electric properties of the human body at the respective radio frequencies. Therefore, it is possible to remarkably reduce the manufacturing cost as compared with that of a solid phantom made of a solid material.
In the first preferred embodiment, the injection holes 102a, 104a, 105a, and 106a are formed in the respective components 102, 104, 105, and 106. However, the present invention is not limited to this, and for example, a plurality of injection holes may be formed in each of the components 102, 104, 105, and 106. This makes it is possible to facilitate discharging the solution filled into the interiors of these components 102, 104, 105, and 106. In this case, it is important to provide each injection hole at a position which does not influence the measurement results. That is, it is important to form each injection hole at a position at which a positional relationship that the solution is present between each injection hole and the portable radio communication apparatus 111 is satisfied. As shown in
If the dimensions of the inner walls of the head section 102, the body section 103, the right shoulder section 104, the right arm section 105, the right hand section 106, and the left shoulder section 107 are designed based on standard dimensions of an adult male according to predetermined statistical data, it is possible to measure the characteristics of the antenna having a larger universality. By faithfully simulating an actual human body shape, it is possible to measure situations in which a radio wave radiated from the portable radio communication apparatus 111 as held in the PDA attitude is reflected and absorbed by the human phantom apparatus 101 with higher accuracy, and to measure an electromagnetic influence of the human body on the portable radio communication apparatus 111 with higher accuracy, than those of the prior art.
The human phantom apparatus 301 according to the modified preferred embodiment of the first preferred embodiment is constituted so that a head sliding mechanism is provided between the head section 302 and a body section 303 and is fixed by a screw section 305. This makes it possible for the head section 302 can be rotated in the front and back directions, as indicated by an arrow 305A, so as to slide on a circular concave portion of an upper end portion of the body section 303, and to orient or direct lines of eyes of the human phantom apparatus 301 to a downward direction. Then the lines of eyes of the human phantom apparatus 301 can be adjusted so as to oriented toward the front direction relative to the liquid crystal display unit 111a of the portable radio communication apparatus 111, and so that the human phantom apparatus 301 can look down at the liquid crystal display unit 111a. Therefore, the characteristics of the antenna can be measured with accuracy higher than that of the prior art.
In the preferred embodiment and the modified preferred embodiment thereof, there are described the human phantom apparatuses 101 and 301 each having the left and right shoulder sections 104 and 107. However, the present invention is not limited to this, and the human phantom apparatus may include at least one shoulder section so that a hand section of the shoulder section holds the portable radio communication apparatus 111.
In the preferred embodiment and the modified preferred embodiment thereof, the instance of holding the portable radio communication apparatus 111 by the right hand section 106 is described. However, the present invention is not limited to this. Alternatively, the human phantom apparatus may be constituted to further include a left arm section and a left hand section connected with the left shoulder section 107 or include only the left arm section and the left hand section which are connected with the left shoulder section 107, and to hold the portable radio communication apparatus 111 by the left hand section. Further, the portable radio communication apparatus 111 may be held by the right and left hand sections. In this case, similar sliding mechanisms are provided between the left shoulder section 107 and the body section 103 and between the left shoulder section 107 and the left arm section, respectively, and further, a rotational mechanism is provided between the left arm section and the left hand section.
In the preferred embodiment and the modified preferred embodiment thereof, the pedestal 108 is not necessarily provided. However, since the pedestal 108 can produce an effect of safety against overturning, the pedestal 108 is preferably provided as long as the pedestal 108 is large enough not to influence the characteristics of the antenna. Besides, a grip may be attached to the pedestal 108, and then, it is possible to facilitate moving the human phantom apparatus 101 or 301.
In the preferred embodiment and the modified preferred embodiment thereof, upper halves of the human phantom apparatuses 101 and 103 are provided, respectively. However, the present invention is not limited to this. As long as the human phantom apparatus includes at least the respective sections shown in the preferred embodiment and the modified preferred embodiment thereof, the human phantom apparatus may be a standing whole body model or a sitting whole body model.
In the preferred embodiment and the modified preferred embodiment thereof, the liquid phantom having the solution such as the solution of the medium having an electric constant close to that of the human body, e.g., the SAR solution injected into the interiors of the respective components is described. However, the present invention is not limited to this. The human phantom apparatus may be a solid phantom. In this case, materials of the solid phantom preferably include silicon emulsion of 50%, demineralized water of 29.97%, glycerin of 15%, agar of 5%, and sodium benzoate of 0.3%.
In the preferred embodiment and the modified preferred embodiment thereof, the dimensions of the human phantom are designed as the standard dimensions of the adult male based on the predetermined statistical data. However, the present invention is not limited to this. The human phantom apparatus may be constituted based on standard dimensions of an adult female or average dimensions each separated by ages. By thus employing the human phantoms of various dimensions, it is possible to measure changes in the characteristics of the antenna due to the differences between individuals with higher accuracy.
Referring to
At the time of measuring the characteristics of the antenna, the turn table 403 is rotated, a radio wave is radiated from the portable radio communication apparatus 111, the radiated radio wave is received by the reception antenna 405, then a radio signal of the received radio wave is received by a radio receiver 406, the received radio signal is subjected to processings such as high frequency amplification, frequency transformation, and detection, and thereafter, a detected electric signal is inputted to a system controller 407 including a network analyzer. The system controller 407 outputs signals such as a measurement start control signal, a measurement end control signal or the like to the rotation controller 408, measures the characteristics of the antenna, such as radiation pattern characteristics or input impedance characteristics, of the antenna 402 of the portable radio communication apparatus 111, and displays measurement results on a CRT display unit 409. In this case, as shown in
As is apparent from
d=λ/4+(nλ)/2 (1), and
d=(nλ)/2 (2).
In the Equations (1) and (2), “n” denotes an integer equal to or larger than zero. The Equation (1) represents such a case where the directivity gain in the +X direction is the minimum. The Equation (2) represents such a case where the directivity gain in the +X direction is the maximum. Actually, however, since the shape of the human body has irregularities, an absolute value of the interval “d” is not strict. Therefore, it is rather important to periodically or cyclically repeat high and low gains at an interval of λ/2. This is evident from
As can be seen from the above, as shown in
d0=λ/4+(nλ)/2 (3).
In the Equation (3), “n” denotes an integer equal to or larger than zero. Referring to
Furthermore, if the portable radio communication apparatus and a base station are located within a line of sight, for example, at hot spots such as those at a railway station, a park or the like in a propagation environment within a line of sight, it can be easily supposed that a time occupation rate of the antenna having a high reception level when diversity reception is carried out. Therefore, by using the antenna having a higher reception level as a transmission antenna, the telephone speech quality of the potable radio communication apparatus can be further improved. In this case, it is more effective when the absolute value of the difference between the intervals “d1” and “d2” between the respective antennas and the human body is λ/4. In case of an application in the 2 GHz band, for example, λ/4 corresponds to an interval of 3.75 cm. Therefore, when the two antennas are arranged at an interval of 3.75 cm, and the antenna having a higher reception level is used as the transmission antenna, then it is possible to suppress deterioration of the antenna sensitivity that depends on the PDA attitude of the portable radio communication apparatus as compared with the arrangement of the antennas at an interval of 7.5 cm. The same thing is true for an application in a 5 GHz band. Then λ/4 corresponds to an interval of 1.5 cm, and therefore, when the two antennas are arranged at an interval of 1.5 cm or 4.5 cm and the antenna having a higher reception level is used as the transmission antenna, then it is possible to suppress the deterioration of the antenna sensitivity that depends on the PDA attitude of the portable radio communication apparatus, as compared with the arrangement of the antennas at an interval of 3 cm or 6 cm which is a multiple of a natural number of λ/2. In case of an application in an 8 GHz band, λ/4 corresponds to an interval of 1 cm or less. Therefore, utilizing the periodic or cyclic change in the antenna gain, the antennas may be arranged at an interval of, for example, 3λ/4 or 5λ/4. In this case, the same advantageous effects can be attained.
Referring to
It is noted that the inclined angle θ in the horizontal direction is not limited to 50 degrees but may be any inclined angle at which the user holds the portable radio communication apparatus 111 when inclining the portable radio communication apparatus 111. The horizontal inclined angle is set preferably to an angle in a range from 20 to 70 degrees, more preferably to an angle in a range from 30 to 60 degrees. Further, the present invention is not limited to this, and the absolute value d0 of the difference between the intervals may be set when the portable radio communication apparatus 111 is not inclined, namely, at the inclined angle θ of 90 degrees.
Referring to
In the second preferred embodiment as mentioned above, when changing the interval “d” and the inclined angle θ, the characteristics of the antenna of the portable radio communication apparatus 111 are measured. However, the present invention is not limited to this. The characteristics of the antenna of the portable radio communication apparatus 111 may be measured by changing a vertical height of the portable radio communication apparatus 111 using the shoulder sliding mechanism that includes the sliding sections 103a and 104b. That is, in the measurement of the characteristics of the antenna of the portable radio communication apparatus 111, the characteristics of the antenna may be changed by changing at least one parameter selected from the interval “d”, the inclined angle θ, and the height.
As shown in
Referring to
Referring to
In the finger phantom apparatus 601 shown in
In contrast, there will be considered an instance in which the finger phantom apparatus 601 including the fingertip section 604 made of the elastic material such as rubber or the like is brought into contact with the antenna 702 of the portable radio communication apparatus 701 as shown in
Referring to
Referring to
A physiological saline solution 906 is filled into the finger phantom root section 902 having the screw section 902a provided on a left tip end. The screw section 902b formed at the highest position on an upper end portion of the finger phantom root section 902 is screwed with the screw reception section 902c serving as an injection hole for injecting the physiological saline solution 906. In addition, the screw section 902a is provided on the left side end portion of the finger phantom root section 902. Further, a screw reception section 903a is provided on a right side end portion of the hollow circular cylindrical member 903 made of resin such as acryl or polypropylene. A small ring-shaped groove having a diameter smaller than an outside diameter of the circular cylindrical member 903 is formed in a finger fixing section 903b in the vicinity of the screw reception section 903a.
Referring to
Referring to
In the preferred embodiments mentioned so far, the physiological saline solution 906 is used as the human body equivalent material. However, the present invention is not limited to this. The water or the SAR solution may be used instead of the physiological saline solution 906 as mentioned above.
The finger phantom apparatus according to each of the third preferred embodiment, the modified preferred embodiment thereof, and the fourth preferred embodiment may be used in the human phantom apparatus according to the first preferred embodiment or to the antenna characteristic measurement system according to the second preferred embodiment.
In the preferred embodiments mentioned so far, the portable radio communication apparatus is used. However, the present invention is not limited to this. The present invention may be applied to various types of radio communication apparatuses.
As mentioned so far, the human phantom apparatus according to the present invention is a human phantom apparatus including: a body section, a head section connected with the body section, at least one shoulder section connected with the body section. and an arm section connected with the at least one shoulder section and including a hand section. In this case, each of the body section, the head section, the at least one shoulder section, and the arm section filled with a human body equivalent material, and the human phantom apparatus has an attitude of holding a radio communication apparatus by the hand section of the arm section, so that the human phantom apparatus looks at a display unit of the radio communication apparatus in front of the body section.
Accordingly, it is possible to faithfully simulate such a state that the radio communication apparatus is held in a PDA attitude, and to measure the characteristics of the antenna with accuracy higher than that of the prior art by measuring an antenna of the radio communication apparatus using this human phantom apparatus.
Further, by designing dimensions of inner walls of respective sections of the human phantom apparatus based on standard dimensions of an adult male according to predetermined statistic data, it is possible to measure the characteristics of the antenna having a larger universality.
The human phantom apparatus is provided as a liquid phantom having a physiological saline solution, water, or an SAR solution filled into a dielectric container made of resin or the like. In this case, even if various frequencies are used, the characteristics of the antenna of the radio communication apparatus 111 can be measured only by filling a physiological saline solution, water, or an SAR solution according to electric properties of a human body at the respective frequencies. In addition, it is possible to greatly reduce the manufacturing cost as compared with that of a solid phantom made of a solid material.
By making the position and the angle when the radio communication apparatus is held adjustable by the sliding mechanism, it is possible to measure the radiation characteristics of the antenna using the interval between the radio communication apparatus and the human phantom apparatus and the inclined angle of the radio communication apparatus as parameters. In addition, the attitude of the display unit of the radio communication apparatus can be adjusted to always face or oppose to the head section of the human phantom apparatus, so that the human phantom apparatus looks at the display unit. Therefore, it is possible to measure the characteristics of the antenna of the radio communication apparatus with accuracy higher than that of the prior art.
Further, when a plurality of antennas is arranged in the radio communication apparatus, the respective antennas are arranged so that an absolute value of the difference between intervals “d1” and “d2” between the antennas and the body section of the human phantom apparatus, respectively, is λ/4 or a value obtained by adding a multiple of a natural number of λ/2 to λ/4, in such a state that the radio communication apparatus is held so as to be inclined at a predetermined inclined angle, and so that the antenna having a higher reception level in a propagation environment within a line of sight is selected as a transmission antenna. In this case, it is possible to improve the diversity effect and to suppress deterioration of antenna sensitivity in the PDA attitude.
Moreover, by employing the finger phantom apparatus having a container made having a tip end portion made of an elastic material such as rubber, it is possible to highly accurately simulate such a state that the finger contacts with the antenna or the radio communication apparatus, and to measure the characteristics of the antenna with accuracy higher than that of the prior art.
Although the present invention has been fully described in connection with the preferred embodiments thereof with reference to the accompanying drawings, it is to be noted that various changes and modifications are apparent to those skilled in the art. Such changes and modifications are to be understood as included within the scope of the present invention as defined by the appended claims unless they depart therefrom.
Yamamoto, Atsushi, Ogawa, Koichi, Iwai, Hiroshi
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